How to plot a graph correctly?
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I have a function of two variables F(t,d) and am building a plane, and I want to plot a function where F(t,d) - C_2=0, I use function 'contour', but I get a few curves and if I take contour(t,d,F) or contour(d,t,F) only the location of the coordinate axes changes, but the graph remains the same. In conclusion, you need to get a graph t(d) for F() - C_2=0.
My code:
%% initial conditions
global k0 h_bar ksi m E C_2
Ef = 2.77*10^3;
Kb = physconst('boltzmann'); % 1.38*10^(-23)
m = 9.1093837*10^(-31);
Tc = 1.2;
ksi = 10^(-9);
h_bar = (1.0545726*10^(-34));
k0 = (ksi/h_bar)*sqrt(2.*m.*pi.*Kb.*Tc);
C_2 = 6.81;
t = linspace(0.1, 2);
d = linspace(10, 1000);
%[TT,DD] = meshgrid(t,d);
%contour(TT, DD, @f_calc);
for i=1:numel(d)
for j = 1:numel(t)
F(i,j) = f_calc(t(j),d(i));
end
end
%plot(t,F)
contour(d,t,F)
%xlabel('d')
%ylabel('t')
%surf(t,d,F)
function F = f_calc(t, d)
global k0 h_bar ksi m C_2
nD = floor(375/(2*pi.*t*1.2) - 0.5);
F = 0;
for k = 0:nD
F = F + 1/(2*k+1).*imag(f_lg(k,t,d)+1i.*d.*k0.*((f_p1(k,t)-f_p2(k,t))./2)+1i*f_arg_1(k,t,d)-1i*f_arg_2(k,t,d));
end
F = -(1/d).*F - 7.826922968141167;
end
function p1 = f_p1(n,t)
p1 = ((1+1i)./sqrt(2)).*sqrt(t.*(2.*n+1));
end
function p2 = f_p2(n,t)
p2 = sqrt(3601+1i.*t.*(2.*n+1));
end
function arg_1 = f_arg_1(n,t,d)
global k0
arg_1 = angle(1+exp(-1i.*d*k0.*f_p1(n,t)));
end
function arg_2 = f_arg_2(n,t,d)
global k0
arg_2 = angle(1+exp(-1i.*d*k0.*f_p2(n,t)));
end
function n_lg = f_lg(n,t,d)
global k0;
arg_of_lg = (1+exp(-1i.*d.*k0.*f_p1(n,t)))/(1+exp(-1i.*d.*k0.*f_p2(n,t)));
n_lg = log(abs(arg_of_lg));
end
0 Comments
Answers (2)
Star Strider
on 26 Jan 2023
I am not certain that I understand what you want to do.
If you only want the contour at ‘F=0’, supply that as the fourth, ‘Levels’ argument to contour:
contour(d,t,F,[0 0])
Try this —
%% initial conditions
global k0 h_bar ksi m E C_2
Ef = 2.77*10^3;
Kb = physconst('boltzmann'); % 1.38*10^(-23)
m = 9.1093837*10^(-31);
Tc = 1.2;
ksi = 10^(-9);
h_bar = (1.0545726*10^(-34));
k0 = (ksi/h_bar)*sqrt(2.*m.*pi.*Kb.*Tc);
C_2 = 6.81;
t = linspace(0.1, 2);
d = linspace(10, 1000);
%[TT,DD] = meshgrid(t,d);
%contour(TT, DD, @f_calc);
for i=1:numel(d)
for j = 1:numel(t)
F(i,j) = f_calc(t(j),d(i));
end
end
%plot(t,F)
contour(d,t,F,[0 0])
xlabel('d')
ylabel('t')
%surf(t,d,F)
function F = f_calc(t, d)
global k0 h_bar ksi m C_2
nD = floor(375/(2*pi.*t*1.2) - 0.5);
F = 0;
for k = 0:nD
F = F + 1/(2*k+1).*imag(f_lg(k,t,d)+1i.*d.*k0.*((f_p1(k,t)-f_p2(k,t))./2)+1i*f_arg_1(k,t,d)-1i*f_arg_2(k,t,d));
end
F = -(1/d).*F - 7.826922968141167;
end
function p1 = f_p1(n,t)
p1 = ((1+1i)./sqrt(2)).*sqrt(t.*(2.*n+1));
end
function p2 = f_p2(n,t)
p2 = sqrt(3601+1i.*t.*(2.*n+1));
end
function arg_1 = f_arg_1(n,t,d)
global k0
arg_1 = angle(1+exp(-1i.*d*k0.*f_p1(n,t)));
end
function arg_2 = f_arg_2(n,t,d)
global k0
arg_2 = angle(1+exp(-1i.*d*k0.*f_p2(n,t)));
end
function n_lg = f_lg(n,t,d)
global k0;
arg_of_lg = (1+exp(-1i.*d.*k0.*f_p1(n,t)))/(1+exp(-1i.*d.*k0.*f_p2(n,t)));
n_lg = log(abs(arg_of_lg));
end
.
16 Comments
Star Strider
on 30 Jan 2023
As far as I can tell, yes.
For whatever reason, contour occasionally breaks up a contour at one level into several different contours. Sometimes this is obvious, for example taking the contours at 0 of the peaks function, although here it is less obvious, at least to me, since I do not understand what you are doing. There are apparently non-zero regions between the zero segments here, and that breaks the 0 contour into disjointed segments.
You would likely have to look at a small section of the contour plot near the 0 region and plot all the available contours in that region to see what it is doing. (It may be necessary to specify those contours as described in the documentation section on levels. Use the xlim function to restrict the region of the contour plot, for example [400 600].)
I leave this to you because I do not understand what your code calculates, so I cannot interpret that result.
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